Enhanced screening and spectral diversity in many-body elastic scattering of excitons in two-dimensional hybrid metal-halide perovskites

Enhanced screening and spectral diversity in many-body elastic scattering of excitons in two-dimensional hybrid metal-halide perovskites

Blog Article

We quantify the role of many-body elastic scattering effects on exciton dephasing rates in two-dimensional hybrid metal-halide moen rothbury faucet perovskites by means of nonlinear coherent excitation spectroscopy at a temperature of 5 K.We find that the exciton-density dependence of excitation-induced dephasing (EID) is two to three orders of magnitude lower than in other atomic monolayer semiconductors such as transition metal dichalchogenides.Furthermore, EID is different for the multiple excitons evident in the swisse high strength magnesium powder berry excitation line shape, as is their phonon-mediated temperature dependence.We ascribe these observations to screening effects due to polaronic dressing by the lattice.